// MODULES: ../impl/IPEndpoint.cpp ../impl/IPAddressV4.cpp
// ../impl/IPAddressV6.cpp

#include <test/beast/IPEndpointCommon.h>

#include <xrpl/basics/random.h>
#include <xrpl/beast/net/IPEndpoint.h>
#include <xrpl/beast/unit_test.h>

#include <boost/algorithm/string.hpp>
#include <boost/asio/ip/address.hpp>
#include <boost/predef.h>

namespace beast {
namespace IP {

//------------------------------------------------------------------------------

class IPEndpoint_test : public unit_test::suite
{
public:
    void
    shouldParseAddrV4(
        std::string const& s,
        std::uint32_t value,
        std::string const& normal = "")
    {
        boost::system::error_code ec;
        Address const result{boost::asio::ip::make_address(s, ec)};
        if (!BEAST_EXPECTS(!ec, ec.message()))
            return;
        if (!BEAST_EXPECTS(result.is_v4(), s + " not v4"))
            return;
        if (!BEAST_EXPECTS(
                result.to_v4().to_uint() == value, s + " value mismatch"))
            return;
        BEAST_EXPECTS(
            result.to_string() == (normal.empty() ? s : normal),
            s + " as string");
    }

    void
    failParseAddr(std::string const& s)
    {
        boost::system::error_code ec;
        auto a = boost::asio::ip::make_address(s, ec);
        BEAST_EXPECTS(ec, s + " parses as " + a.to_string());
    }

    void
    testAddressV4()
    {
        testcase("AddressV4");

        BEAST_EXPECT(AddressV4{}.to_uint() == 0);
        BEAST_EXPECT(is_unspecified(AddressV4{}));
        BEAST_EXPECT(AddressV4{0x01020304}.to_uint() == 0x01020304);

        {
            AddressV4::bytes_type d = {{1, 2, 3, 4}};
            BEAST_EXPECT(AddressV4{d}.to_uint() == 0x01020304);

            unexpected(is_unspecified(AddressV4{d}));
        }

        AddressV4 const v1{1};
        BEAST_EXPECT(AddressV4{v1}.to_uint() == 1);

        {
            AddressV4 v;
            v = v1;
            BEAST_EXPECT(v.to_uint() == v1.to_uint());
        }

        {
            AddressV4 v;
            auto d = v.to_bytes();
            d[0] = 1;
            d[1] = 2;
            d[2] = 3;
            d[3] = 4;
            v = AddressV4{d};
            BEAST_EXPECT(v.to_uint() == 0x01020304);
        }

        BEAST_EXPECT(AddressV4(0x01020304).to_string() == "1.2.3.4");

        shouldParseAddrV4("1.2.3.4", 0x01020304);
        shouldParseAddrV4("255.255.255.255", 0xffffffff);
        shouldParseAddrV4("0.0.0.0", 0);

        failParseAddr(".");
        failParseAddr("..");
        failParseAddr("...");
        failParseAddr("....");
#if BOOST_OS_WINDOWS
        // WINDOWS bug in asio - I don't think these should parse
        // at all, and in-fact they do not on mac/linux
        shouldParseAddrV4("1", 0x00000001, "0.0.0.1");
        shouldParseAddrV4("1.2", 0x01000002, "1.0.0.2");
        shouldParseAddrV4("1.2.3", 0x01020003, "1.2.0.3");
#else
        failParseAddr("1");
        failParseAddr("1.2");
        failParseAddr("1.2.3");
#endif
        failParseAddr("1.");
        failParseAddr("1.2.");
        failParseAddr("1.2.3.");
        failParseAddr("256.0.0.0");
        failParseAddr("-1.2.3.4");
    }

    void
    testAddressV4Proxy()
    {
        testcase("AddressV4::Bytes");

        AddressV4::bytes_type d1 = {{10, 0, 0, 1}};
        AddressV4 v4{d1};
        BEAST_EXPECT(v4.to_bytes()[0] == 10);
        BEAST_EXPECT(v4.to_bytes()[1] == 0);
        BEAST_EXPECT(v4.to_bytes()[2] == 0);
        BEAST_EXPECT(v4.to_bytes()[3] == 1);

        BEAST_EXPECT((~((0xff) << 16)) == 0xff00ffff);

        auto d2 = v4.to_bytes();
        d2[1] = 10;
        v4 = AddressV4{d2};
        BEAST_EXPECT(v4.to_bytes()[0] == 10);
        BEAST_EXPECT(v4.to_bytes()[1] == 10);
        BEAST_EXPECT(v4.to_bytes()[2] == 0);
        BEAST_EXPECT(v4.to_bytes()[3] == 1);
    }

    //--------------------------------------------------------------------------

    void
    testAddress()
    {
        testcase("Address");

        boost::system::error_code ec;
        Address result{boost::asio::ip::make_address("1.2.3.4", ec)};
        AddressV4::bytes_type d = {{1, 2, 3, 4}};
        BEAST_EXPECT(!ec);
        BEAST_EXPECT(result.is_v4() && result.to_v4() == AddressV4{d});
    }

    //--------------------------------------------------------------------------

    void
    shouldParseEPV4(
        std::string const& s,
        AddressV4::bytes_type const& value,
        std::uint16_t p,
        std::string const& normal = "")
    {
        auto const result = Endpoint::from_string_checked(s);
        if (!BEAST_EXPECT(result))
            return;
        if (!BEAST_EXPECT(result->address().is_v4()))
            return;
        if (!BEAST_EXPECT(result->address().to_v4() == AddressV4{value}))
            return;

        BEAST_EXPECT(result->port() == p);
        BEAST_EXPECT(to_string(*result) == (normal.empty() ? s : normal));
    }

    void
    shouldParseEPV6(
        std::string const& s,
        AddressV6::bytes_type const& value,
        std::uint16_t p,
        std::string const& normal = "")
    {
        auto result = Endpoint::from_string_checked(s);
        if (!BEAST_EXPECT(result))
            return;
        if (!BEAST_EXPECT(result->address().is_v6()))
            return;
        if (!BEAST_EXPECT(result->address().to_v6() == AddressV6{value}))
            return;

        BEAST_EXPECT(result->port() == p);
        BEAST_EXPECT(to_string(*result) == (normal.empty() ? s : normal));
    }

    void
    failParseEP(std::string s)
    {
        auto a1 = Endpoint::from_string(s);
        BEAST_EXPECTS(is_unspecified(a1), s + " parses as " + a1.to_string());

        auto a2 = Endpoint::from_string(s);
        BEAST_EXPECTS(is_unspecified(a2), s + " parses as " + a2.to_string());

        boost::replace_last(s, ":", " ");
        auto a3 = Endpoint::from_string(s);
        BEAST_EXPECTS(is_unspecified(a3), s + " parses as " + a3.to_string());
    }

    void
    testEndpoint()
    {
        testcase("Endpoint");

        shouldParseEPV4("1.2.3.4", {{1, 2, 3, 4}}, 0);
        shouldParseEPV4("1.2.3.4:5", {{1, 2, 3, 4}}, 5);
        shouldParseEPV4("1.2.3.4 5", {{1, 2, 3, 4}}, 5, "1.2.3.4:5");
        // leading, trailing space
        shouldParseEPV4("   1.2.3.4:5", {{1, 2, 3, 4}}, 5, "1.2.3.4:5");
        shouldParseEPV4("1.2.3.4:5    ", {{1, 2, 3, 4}}, 5, "1.2.3.4:5");
        shouldParseEPV4("1.2.3.4   ", {{1, 2, 3, 4}}, 0, "1.2.3.4");
        shouldParseEPV4("  1.2.3.4", {{1, 2, 3, 4}}, 0, "1.2.3.4");
        shouldParseEPV6(
            "2001:db8:a0b:12f0::1",
            {{32, 01, 13, 184, 10, 11, 18, 240, 0, 0, 0, 0, 0, 0, 0, 1}},
            0);
        shouldParseEPV6(
            "[2001:db8:a0b:12f0::1]:8",
            {{32, 01, 13, 184, 10, 11, 18, 240, 0, 0, 0, 0, 0, 0, 0, 1}},
            8);
        shouldParseEPV6(
            "[2001:2002:2003:2004:2005:2006:2007:2008]:65535",
            {{32, 1, 32, 2, 32, 3, 32, 4, 32, 5, 32, 6, 32, 7, 32, 8}},
            65535);
        shouldParseEPV6(
            "2001:2002:2003:2004:2005:2006:2007:2008 65535",
            {{32, 1, 32, 2, 32, 3, 32, 4, 32, 5, 32, 6, 32, 7, 32, 8}},
            65535,
            "[2001:2002:2003:2004:2005:2006:2007:2008]:65535");

        Endpoint ep;

        AddressV4::bytes_type d = {{127, 0, 0, 1}};
        ep = Endpoint(AddressV4{d}, 80);
        BEAST_EXPECT(!is_unspecified(ep));
        BEAST_EXPECT(!is_public(ep));
        BEAST_EXPECT(is_private(ep));
        BEAST_EXPECT(!is_multicast(ep));
        BEAST_EXPECT(is_loopback(ep));
        BEAST_EXPECT(to_string(ep) == "127.0.0.1:80");
        // same address as v4 mapped in ipv6
        ep = Endpoint(
            boost::asio::ip::make_address_v6(
                boost::asio::ip::v4_mapped, AddressV4{d}),
            80);
        BEAST_EXPECT(!is_unspecified(ep));
        BEAST_EXPECT(!is_public(ep));
        BEAST_EXPECT(is_private(ep));
        BEAST_EXPECT(!is_multicast(ep));
        BEAST_EXPECT(!is_loopback(ep));  // mapped loopback is not a loopback
        BEAST_EXPECTS(to_string(ep) == "[::ffff:127.0.0.1]:80", to_string(ep));

        d = {{10, 0, 0, 1}};
        ep = Endpoint(AddressV4{d});
        BEAST_EXPECT(get_class(ep.to_v4()) == 'A');
        BEAST_EXPECT(!is_unspecified(ep));
        BEAST_EXPECT(!is_public(ep));
        BEAST_EXPECT(is_private(ep));
        BEAST_EXPECT(!is_multicast(ep));
        BEAST_EXPECT(!is_loopback(ep));
        BEAST_EXPECT(to_string(ep) == "10.0.0.1");
        // same address as v4 mapped in ipv6
        ep = Endpoint(boost::asio::ip::make_address_v6(
            boost::asio::ip::v4_mapped, AddressV4{d}));
        BEAST_EXPECT(
            get_class(boost::asio::ip::make_address_v4(
                boost::asio::ip::v4_mapped, ep.to_v6())) == 'A');
        BEAST_EXPECT(!is_unspecified(ep));
        BEAST_EXPECT(!is_public(ep));
        BEAST_EXPECT(is_private(ep));
        BEAST_EXPECT(!is_multicast(ep));
        BEAST_EXPECT(!is_loopback(ep));
        BEAST_EXPECTS(to_string(ep) == "::ffff:10.0.0.1", to_string(ep));

        d = {{166, 78, 151, 147}};
        ep = Endpoint(AddressV4{d});
        BEAST_EXPECT(!is_unspecified(ep));
        BEAST_EXPECT(is_public(ep));
        BEAST_EXPECT(!is_private(ep));
        BEAST_EXPECT(!is_multicast(ep));
        BEAST_EXPECT(!is_loopback(ep));
        BEAST_EXPECT(to_string(ep) == "166.78.151.147");
        // same address as v4 mapped in ipv6
        ep = Endpoint(boost::asio::ip::make_address_v6(
            boost::asio::ip::v4_mapped, AddressV4{d}));
        BEAST_EXPECT(!is_unspecified(ep));
        BEAST_EXPECT(is_public(ep));
        BEAST_EXPECT(!is_private(ep));
        BEAST_EXPECT(!is_multicast(ep));
        BEAST_EXPECT(!is_loopback(ep));
        BEAST_EXPECTS(to_string(ep) == "::ffff:166.78.151.147", to_string(ep));

        // a private IPv6
        AddressV6::bytes_type d2 = {
            {253, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1}};
        ep = Endpoint(AddressV6{d2});
        BEAST_EXPECT(!is_unspecified(ep));
        BEAST_EXPECT(!is_public(ep));
        BEAST_EXPECT(is_private(ep));
        BEAST_EXPECT(!is_multicast(ep));
        BEAST_EXPECT(!is_loopback(ep));
        BEAST_EXPECTS(to_string(ep) == "fd00::1", to_string(ep));

        {
            ep = Endpoint::from_string("192.0.2.112");
            BEAST_EXPECT(!is_unspecified(ep));
            BEAST_EXPECT(ep == Endpoint::from_string("192.0.2.112"));

            auto const ep1 = Endpoint::from_string("192.0.2.112:2016");
            BEAST_EXPECT(!is_unspecified(ep1));
            BEAST_EXPECT(ep.address() == ep1.address());
            BEAST_EXPECT(ep1.port() == 2016);

            auto const ep2 = Endpoint::from_string("192.0.2.112:2016");
            BEAST_EXPECT(!is_unspecified(ep2));
            BEAST_EXPECT(ep.address() == ep2.address());
            BEAST_EXPECT(ep2.port() == 2016);
            BEAST_EXPECT(ep1 == ep2);

            auto const ep3 = Endpoint::from_string("192.0.2.112 2016");
            BEAST_EXPECT(!is_unspecified(ep3));
            BEAST_EXPECT(ep.address() == ep3.address());
            BEAST_EXPECT(ep3.port() == 2016);
            BEAST_EXPECT(ep2 == ep3);

            auto const ep4 = Endpoint::from_string("192.0.2.112     2016");
            BEAST_EXPECT(!is_unspecified(ep4));
            BEAST_EXPECT(ep.address() == ep4.address());
            BEAST_EXPECT(ep4.port() == 2016);
            BEAST_EXPECT(ep3 == ep4);

            BEAST_EXPECT(to_string(ep1) == to_string(ep2));
            BEAST_EXPECT(to_string(ep1) == to_string(ep3));
            BEAST_EXPECT(to_string(ep1) == to_string(ep4));
        }

        {
            ep = Endpoint::from_string("[::]:2017");
            BEAST_EXPECT(is_unspecified(ep));
            BEAST_EXPECT(ep.port() == 2017);
            BEAST_EXPECT(ep.address() == AddressV6{});
        }

        // Failures:
        failParseEP("192.0.2.112:port");
        failParseEP("ip:port");
        failParseEP("");
        failParseEP("1.2.3.256");

#if BOOST_OS_WINDOWS
        // windows asio bugs...false positives
        shouldParseEPV4("255", {{ 0, 0, 0, 255 }}, 0, "0.0.0.255");
        shouldParseEPV4("512", {{ 0, 0, 2, 0 }}, 0, "0.0.2.0");
        shouldParseEPV4("1.2.3:80", {{ 1, 2, 0, 3 }}, 80, "1.2.0.3:80");
#else
        failParseEP("255");
        failParseEP("512");
        failParseEP("1.2.3:80");
#endif

        failParseEP("1.2.3.4:65536");
        failParseEP("1.2.3.4:89119");
        failParseEP("1.2.3:89119");
        failParseEP("[::1]:89119");
        failParseEP("[::az]:1");
        failParseEP("[1234:5678:90ab:cdef:1234:5678:90ab:cdef:1111]:1");
        failParseEP("[1234:5678:90ab:cdef:1234:5678:90ab:cdef:1111]:12345");
        failParseEP("abcdef:12345");
        failParseEP("[abcdef]:12345");
        failParseEP("foo.org 12345");

        // test with hashed container
        std::unordered_set<Endpoint> eps;
        constexpr auto items{100};
        float max_lf{0};
        for (auto i = 0; i < items; ++i)
        {
            eps.insert(randomEP(ripple::rand_int(0, 1) == 1));
            max_lf = std::max(max_lf, eps.load_factor());
        }
        BEAST_EXPECT(eps.bucket_count() >= items);
        BEAST_EXPECT(max_lf > 0.90);
    }

    //--------------------------------------------------------------------------

    template <typename T>
    bool
    parse(std::string const& text, T& t)
    {
        std::istringstream stream{text};
        stream >> t;
        return !stream.fail();
    }

    template <typename T>
    void
    shouldPass(std::string const& text, std::string const& normal = "")
    {
        using namespace std::literals;
        T t;
        BEAST_EXPECT(parse(text, t));
        BEAST_EXPECTS(
            to_string(t) == (normal.empty() ? text : normal),
            "string mismatch for "s + text);
    }

    template <typename T>
    void
    shouldFail(std::string const& text)
    {
        T t;
        unexpected(parse(text, t), text + " should not parse");
    }

    template <typename T>
    void
    testParse(char const* name)
    {
        testcase(name);

        shouldPass<T>("0.0.0.0");
        shouldPass<T>("192.168.0.1");
        shouldPass<T>("168.127.149.132");
        shouldPass<T>("168.127.149.132:80");
        shouldPass<T>("168.127.149.132:54321");
        shouldPass<T>("2001:db8:a0b:12f0::1");
        shouldPass<T>("[2001:db8:a0b:12f0::1]:8");
        shouldPass<T>("2001:db8:a0b:12f0::1 8", "[2001:db8:a0b:12f0::1]:8");
        shouldPass<T>("[::1]:8");
        shouldPass<T>("[2001:2002:2003:2004:2005:2006:2007:2008]:65535");

        shouldFail<T>("1.2.3.256");
        shouldFail<T>("");
#if BOOST_OS_WINDOWS
        // windows asio bugs...false positives
        shouldPass<T>("512", "0.0.2.0");
        shouldPass<T>("255", "0.0.0.255");
        shouldPass<T>("1.2.3:80", "1.2.0.3:80");
#else
        shouldFail<T>("512");
        shouldFail<T>("255");
        shouldFail<T>("1.2.3:80");
#endif
        shouldFail<T>("1.2.3:65536");
        shouldFail<T>("1.2.3:72131");
        shouldFail<T>("[::1]:89119");
        shouldFail<T>("[::az]:1");
        shouldFail<T>("[1234:5678:90ab:cdef:1234:5678:90ab:cdef:1111]:1");
        shouldFail<T>("[1234:5678:90ab:cdef:1234:5678:90ab:cdef:1111]:12345");
    }

    void
    run() override
    {
        testAddressV4();
        testAddressV4Proxy();
        testAddress();
        testEndpoint();
        testParse<Endpoint>("Parse Endpoint");
    }
};

BEAST_DEFINE_TESTSUITE(IPEndpoint, beast, beast);

}  // namespace IP
}  // namespace beast
